Quantitative analysis of sputtering due to ion beam bombardment of solids and biological specimens in high resolution electron microscopy

Micron and Microscopica Acta Pub Date : 1992-01-01 DOI:10.1016/0739-6260(92)90072-L

Koichi Kanaya , Yoshinori Muranaka , Katsuhisa Yonehara , Koichi Adachi

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引用次数: 3

Abstract

When a positively charged ion beam is used to bombard a solid target, most of the atoms are displaced and sputtered according to the atomic sputtering theory. In the case of biological specimens, most of the bond-breaking molecules in proteins are removed, when based on the molecular sputtering theory. It was found that the thinning rate for solids and the etching rate for biological specimens, when prepared by a normal double fixation and staining method, can be measured from the sputtering yield and density of the specimens. It was also found that the thinning and etching rates depend on the removal weight per sublimation energy and bonding energy, respectively. The angular distribution of sputtering yield, its dependence on incident angle and the secondary electron emission yield were measured, and the optimum etching condition of the incidence was obtained. Experiments showed that the in situ observation of intracellular structures of biological specimens prepared by ion beam etching can be a very effective method in electron microscopy.

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高分辨电子显微镜下固体和生物样品离子束轰击溅射的定量分析

当带正电荷的离子束轰击固体目标时，根据原子溅射理论，大多数原子会发生位移和溅射。以生物标本为例，基于分子溅射理论，蛋白质中的大部分断键分子被去除。结果表明，采用常规双固定染色法制备生物样品时，固体的稀释率和生物样品的蚀刻率可以通过样品的溅射率和密度来测量。薄化速率和蚀刻速率分别取决于每升华能和键能的去除量。测量了溅射产率的角分布、与入射角的关系以及二次电子发射产率，得到了最佳的入射蚀刻条件。实验表明，离子束刻蚀法制备的生物标本的细胞内结构是一种非常有效的电镜观察方法。

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Micron and Microscopica Acta

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